Mixing faucet



March 15, 1960 HUNSINGER MIXING FAUCET 6 Sheets-Sheet l Filed April 25, 1957 COLD WA TEK J Z/'zwas WMS/mja; a ,d

March 1S, 1960 l.. HUNsxNGr-:R

MIXING FAUCET 6 Sheets-Sheet 2 Filed April 25, 1957 March l5, 1960 l.. HUNSINGER MIXING FAUCET 6 Sheets-Sheet 5 Filed April 25, 1957 ZJ Jag March l5, 1960 HUNSINGER 2,928,422

MIXING FAUCET 6 Sheets-Sheet 4 Filed April 25, 1957 f7-206m or March l5, 1960 L. HuNslNGER MIXING FAUCET 6 Sheets-Sheet 5 Filed April 25, 1957 L. HUNSINGER March l5, 1960 MIXING FAUCET 6 Sheets-Sheet 6 Filed April 25, 1957 MIXING FAUCET Lukas Hunsinger, Chicago, lll.

Application April 25, 1957, Serial No. 655,080 is claims. (ci. 137-597) This invention relates to mixing faucets and particularly relates to an improved form of mixing valve for use with faucetssuch as are used with bathtubs, and to which a shower head may be operatively connected, lbathroom lavatories, kitchen sink faucets and kitchen sink faucets in combination with a sprayer for spraying dishes.V The sprayer is operatively connected to a hose which in turn is operatively connected to the faucet.

A vprincipal object .of the invention listo provide :an improved valvey which combines the functions of mixing two separate fluid streams ofthe cold and hot water sup ply in blended dischargeand controlling the-temperature of the discharge from cold through thel blended temperature to hot, and also controlling the quantity of discharge from a full flow to a completely shut-off condition. The invention is particularly useful in various embodiments of hot and cold water faucets conventionally usedy in the modern home and supplants the use of separate faucets for controlling the hot and cold water supply. v

Another object of the invention is to provide a valv having a single control member having a universal Vmovement and adapted when positioned between one set of fixed positions to control the blending of the fluids, and when moved between another set of opposed positions to control the quantity of ow.

Still another object of the invention is to provide a valve construction for faucets of the type asused in the modern home in which the control member may assume any one of an infinite number of positions which may lie either in or intermediate the planes of movement between the aforesaid opposed positions so that any desired combination of blending and volume of ow may be attained.

A further object of thek invention is to provide a valve mechanism which may discharge cold water from its closed position to its full maximum open position and with intermediate quantities therebetween, .and similarly discharge only hot water from its full open positionto its full closed position and intermediate 4positions therebetween, and also to blend the iluids,`for example, from cold to hot and lintermediate thereof from the maximum discharge to a shut-off position and intermediate positions thereof.

Another object of the invention is to provide a combined mixing valve and volume control valve for mixing faucets wherein complicated valve-operating mechanism and valve constructions for each of the iiuids are reduced. A particularly typical problem in such a development has been the problem of sealing a universally movable valve control mechanism with respect to the several ow control valves with which it must function. Therefore, another object of my invention is to provide a combined volume and blending control valve which is provided with rela- States vPatent' tive fluid passages with a minimum of difficulty so that Vthe ordinary home owner may repair the mixing valve of this construction without recourse to hiring la plumber;

With this improved mixing faucet construction, itis pos sible to replace worn sealing gaskets as simply as in av conventional single-now faucet. f

Still another object of the invention is to provide a mixingvalve of this character having an improved mix- Y ing valve in combination with sprayer kmeans for spraying hot or cold water or blended between the maximumtemperatures and in which a simple valve means is provided in combination with agmixing valve for controlling the 'I discharge either to the ,discharge spout of twfmltsV or to the vspraying means. i t Y in order 4to accomplish the various objects of the in- Vention,`1 have provided an ,improved mixing faucet and mixing valve therefor, wherein the mixing valvemay be universally operated for controlling the temperature of fluids from two sources of fluid-preferably hot and cold water as used in the home, and in which there is provided a spring-biased spherical control ,means operatively connected to linkages which in turn are operatively connected to a valve for each of the fluid passages so that not only the quantity of iiuid may be controlled but Valso a mix-v ture ofthe two fluids intermediate the temperature range of the cold and hot uids. In one `embodiment of my invention, I have disclosed this improved form of mixing valve with a faucet as used with a bathtuband wherein there is an auxiliary valve for control-of the' fluid toa shower head, and either hot, cold or blended fluids may be discharged from theshower head.

In another embodiment of my invention, the improved sink.

,In another embodiment of my invention,'the improved mixing. faucet and mixing valve therefor, is adapted.. for

use with a `bathroom lavatory of conventional con-V struction.

tively simple and eicie'nt means for sealing the valve eley placement of the valve and sealing means for the respec- In still another embodiment, the improved mixing faucet and mixing valve therefor is used with a conventional form of sprayer so that hot, cold or a y,blended mixture'of uid may be either discharged directly to the sink,- or by manipulating an auxiliary valve the fluid, Y

in its blended or hot or cold condition, is discharged to the spray head in regulated amounts.

Many other objects and advantages of the construction herein shown and described will be obvious to those K.

skilled in the art from the disclosure herein given.

To this end, my invention consists in the novel con-f struction, arrangement and combination of parts herein shown and described `and more particularly pointedv out in the appended claims. Y

Referring now to the accompanying drawings forming part of the specification:

Fig. 1k 'is a view in elevation, Ypartly in cross-section illustrating one embodiment of my invention for an im-4 Y proved mixing faucet comprising an improved valve con t struction for mixing two separate streams, and particularly adapted as a lbathtub Vfaucet and incorporating valve mechanism for controlling the uids to a shower installation;

Fig. 2 is a plan view taken along line 2--2, lookingin,`

Patented Mar. 15, 196C) Y the direction of the arrows and partly in crosssection, of the embodiment of Fig. l;`

Fig. 3 is an end view in elevation of the mixing faucet f Fig. 1; f

Fig. 4 is a view in elevation partly in cross-section taken along line' 4 4 of Fig. 2, looking in the direction of the arrows, illustrating the valve operating mechanism of the mixing faucet of Fig. 1;

Fig. 5 is anend view, partly in elevation taken along I line 5 5 looking in the direction of the `arrows and partly in cross-sectionV of the mixing valve of Fig.V 1;

Fig. 6 is a view in elevation, partly in sectioirof still another embodiment of my invention of la mixing faucet i for use with a kitchen sink;

Fig. 7 is a front view in elevation, partly in crosssectionof the mixing faucet of Fig. 6 for kitchen sinks;

Fig. 8'is a view in elevation of a swivel connection of the Vspigot to the mixing faucet taken along line 8-8 of Fig. 7; Y

Fig. 9 vis a view` in elevation, partly in cross-section of. another embodiment ofY my inventionof a mixing faucet for a lavatory;

, Fig. 10 `is a front'view in elevation, partly in crosssection, of the mixing faucet of Fig. 9;

Fig. 11 is a perspective view of a mixing faucet for ak Akitchen `sink illustrating the valve mechanism exploded vpassageway 32 for discharge of the mixed fluids to a shower head but is also operatively connected to a chamber 33 formed in a spout housing 34. The spout housing 34 is provided with a discharge spout 35 formed with a passageway 36 connected to the chamber 33 through a combined opening and valve seat 37.

vIn order to control the discharge of the uid from the mixing chamber 28 to either the discharge spout 35 Vor toa shower head connected t the pipe 31,'a vertical lift valve 38 is provided. This vertical` lift valve comA prises a valve stem 38 vertically mounted in a com plementally formedjopening 39 `.preferably drilled within the spout housing 34 andV suitablyreamed for close tolerances to slidably receive the valve stem 38. On the lower end of the stem 38, and mounted within the chamber33 is a valve member 40. The valve `member 40Y comprises a disc-like or ball member 41vformed with a collar and provided r'with an'opening to detachably mount the lower end of the valve stern 38. The disc-like member 41 may be afxed to the valve `stem by` apin 42 or other well known securing means. Aixed to the bottom face of the disc-like member `41 is a gasket 43 formed of nlbber, neoprene or other suitable material to withstand the Vtemperatures of the fluid being controlled with this mixing faucet.- The gasket 43 may be A(cemented. or aixed to the member 41 by a conventional ing casting of mixing faucet of Fig. 11, and withthe valve operating mechanism for blending the fluids removed; vi Fig. 14 is an 'end view, partly inv sectionftaken lalong screw in"threadedfengagement with the disc-like member 41 as is well understood in `thisart.

A spherical knob 44 is preferably threaded to the outer end of the valve` stem 38.` In orderto prevent leakage of the fluid from the chamber 28 about the pcripheral surface of thefvalve stem 38, a suitable gasket 45 is"complementallyfformed to a `recess 46 and.'pro vided with anf opening through which the valve stem 33 is slidably mounted. A compression nut 47 has a thread ed end 48 complementally formed to a threaded opening 49 formed .in the upper face of the spout housing 34. The

. compression or packing nutf47 is preferably knurled line 14-14 of Fig. l2, and illustrating the lluid `passages i for the faucet and for the sprayer connection; andk Fig. 15 is anend view of the mixing faucet of Fig. 1l, illustrating the valve j operating mechanism for controlling theiluidmixture to the spray nozzle or the mixing faucet. 1 I p Referring now more particularly to the drawings, each of the embodiments of the improved mixing faucetiwill be described, and wherein the same or similar structures are used in each embodiment, the same or primerefep sol ence characters will be utilized tol identify similar parts.

As an example vof one form of ,my improved mixing faucet, particularly adapted for use as a, mixing faucet for bathtubs and incorporating a'valve constructionfor diverting the mixed'uids to a shower head will be particularly described with reference to Figs.'1 through 5. In Figs. l through 5 inclusive, is shown a mixing valve 20 adapted to control the blending and volume of ow of streams of hot and cold water from hot and cold water pipes 21 and 22, respectively. The valve 20 comprises a main body portion 23 formed `with tapped holes `24v and 25 to receive the pipesV 21 and 22. `Similarly formed drilled passageways 26 and 27 are in communication with the tapped holes 24 and 25, the.Y tapped holes preferably tapped to receive a one-half inch pipe.' A`mix4 ing chamber 28, Figs. l, 2, 4 and 5 is in communication with the fluid passageways 26 and 27. j

Integrally formed with the main body portion 23 is a boss 29 having a threaded opening 30 to receive `a one-half inch pipe 31 which is connected to a shower head, if desired, or if a shower head is not used, this tapped opening may be closed with a-conventional pipe plug. The threaded opening 30 communicates with a passageway 32 which in turn extends ,to the mixing c hamber 28. The mixing chamber is not only connected tothe ways and to provide for mixing or blending of the` lluids,

at 47 inforderto suitably tightenthe nut Yagainst the packing or gasket v45 to compress the gasket about the peripheral surface of the valve stern to prevent leakage i of fluid, and at the same time permit verticalmovement of the valve stems through the packing. i

In the raised position'of the -vertical lift valve 38, as shown in the solid positionof the disc-like member 41, Fig. 1, the'hot or coldiuidY or mixture thereof, may discharge in the mixing chamber 28 through the opening 37 through the passageway 36 of the spout 35. In the closed position oftheverticalflift valve 38, as shown by the-dotted position `of the like memberg41' by the corresponding dotted position'44 of the spherical knob, the opening 37 is closed and the hot or cold fluid or mixed fluid from the 'chamber 28 is discharged through the pasf sage 32 through the` pipe 31 tothe spray head of the bathtub shower (not shown).

In order to Vcontrol the fluid passageways 26` and 27 and kto provide for. complete shut-off of these passagethe improved valve4 construction and Ycontrols therefor of my invention will be described more particularly with respect to the showing in Figs. 1, 2, 3, 4.and 5.` With this improved mixing'valve construction, Vboth openings from the mixing chamber` 28'to the passageways 26 and l the valves that theiamou'nt of cold or hot water may bc controlled from full shut-olf position to maximum discharge and intermediate positions vtherein for varying the erases flow between shut-od ato inarrimum discharge. The spout housing 34 is provided with asemi-spherical opening .50.

The outer peripheral edgenis .provided with an `annular annular lip V-7 forming lthe .recess 52 yfor .receiving the annular lip 5.1 'are affixed together by peripherally iarranged lset 'screws `585 fig. 2, .threadably received .inthe annular lip l57 Aand engaging `suitable openings '59 peripherally spaced about the periphery of the annular lip 5l. An arcuate slot 60, Figs. l and v2, provides for the range of verticalrarcuate movement of thesemi-spherical valve-operating member 55, and a set screw 61-in threaded engagement with the opening 62 of the valve-operating member SS'eXtends slightly above the peripheral surface of the valve-operating member `55, and within the arcuate slot 60. The upper and lower ends of the 'arcuate slot 6i), upon movement of the valve-operating member 55, provides stops for the set screw 6i. In `the position .of the set screw 61, in Fig. l, the valve-operating member 55 is in the closed position wherein vthe valves for `the passages 26 and 27 are closed. In the upper position with the set screw 61 engaging the upper end of the arcuate slot 69, the valves for the passages 26 and 27 are in their maximum open positionsfor either valve, depending upon 'the position 'of the operating handle 63, i'.e. Whether it is in the maximum open `position for Vthe cold water or hot water passage or in thek .intermediate full'open position forthe 'blended mixture. The blending of the water will Ybe deseribedlater under the description of operation. The set screw 6.1 also serves as a pivot pointfor transverse movement of the valve-operating member 55 .in its lateral angular movement from the full Vclosed lposition of the handle 63 to afull open position therefor, 'for the discharge of cold watergand the full open position therefor, for the discharge of hot Water andV the intermediate mixing'position.

The operating handle y63 has a lower vthreaded end 64 for threaded engagement with a threaded opening 65 iin .the valve-operating. member l55. The semi-*spherical housing 50' vi's formed 'with a U-shapednotch 616.',for locating the handle 63 inthe ofi position of vtherni'xin'g valve.' The semi-spherical housing "53 is also formed with a similarly formed U-'shaped-notch 66'.. These notches 66 and 66 extend through the annular lip portions-51 and 57 of the semnspherical housings 50 and` 53. A spherical triangular .opening 67, Figs. l, 3 yand 4', is. formed in the semi-spherical housing S3 and the legs gand 69-at the upper ends 'terminateinthe U-'shapedslot 66," for the operating handle 63. The legs of the U-shaped slot 66 in the semi-spherical housing 50 also form a portion of the legs 68 and 69 of the spherical 'triangular opening- 67. The semi-spherical triangular opening '67 is also formed with a bas-e 70. The legs '68 and 69 join with the basem in arcuate shape 71 complementally formed tothe peripheral surface of the spindle '72 rof the operating handle 63. To provide a closure for the spherical 'triangular opening 67, a housing member '73 `shaped as illustrated in Figs. l, 3 and 4, is complementally formed to the outer spherical surface of the semi-spherical housings Sil and 53, so that as the operating handle 63 is moved from its closed position to full open position for maximum delivery of either hot or cold, or in the intermediate mixing position, vthe spherical triangular opening 67 isalways covered. Acollar 74 integrally formed with the housing member 73 permits the housing member to be detachably mounted upon the `spindle 22 when the 4handle 63 6 .is detached from the valvefoperating member 55.\ The housing member 73 is held in its adjusted position to permit ease in movement of the operating handle 63 by a set screw 75 complementally formed to a threaded opening in lthe collar 74 and engaging the peripheral sur-v face of the spindle 72, as shown in Figs. l and. 2l. VAn ornamental knob 76 which may be of plastic or other suitable material is threadably mounted' on the outer end of the spindle'7'2. The knob permits engagement thereof by the operators hand for .manipulating the operating handle 63 in any of the adjusted positions from 'open to closed. e 1

In orderto maintain thevalv'e-operating member 55' in any of the adjusted positions of the handle members, spring-biasing means 77 is provided as illustrated in Figs.

l, Zand 4. ein order yto .mount the spring-biasing meansf 77, astud '78 yis integrally formed with the valve-operating member 55. by machining, or otherwise suitably formed byv means of a "separate stud detachably affixed to the valvefoperating member. An annular recess 78 is formed about the stud 78 to mount therein the inner end of a cylindrical-shaped member 79 formed with a ycylindrical opening 80 complementally formed to slidably mount the cylindrically shaped member 7% on the stud '73. The cylindrical-shaped member or spring retainer 79 supports a compression spring 81 on the outer peripheral surface of the spring retainer 79. Qutward movement of the spring 81 is prevented by an integrally formed Vdisc S2 slightly larger in diameter than the diameter of the spring S1. A roller 83 is journaled on a threaded pin 84 providedvwith a screw slot o'n one end and threads on the other end .for detachably mounting the pin to the spaced support members 85 and 85 integrally formed with the disc .82 of the spring retainer 79. The threaded pin engages althreade'dopening in one of the supports 86 for Vvrepair and replacement or the roller S3. vllt is preferredk that the roller shall be hardened, and in the assembled position, as shown in Figs. l, 2 and 4, the roller l83 operatively engages the inner peripheral surface :i4 of the semi-spherical housing 53. As the peripheral surface V54 is also similar to the peripheral surface of the semi-spherical housing portion 50', the valveoperating member SS may suitably rotate within the spherical housing formed by the housing .members Sii' and 53', and beheld in sprung-biased engagement therewith.

The `spring-biasing means 77 not only serves to retain the -valve-operatingmember 55 in Contact with the pexipheral surface of the 'spherical opening formed bythe' in the closed position of the valve to prevent any leakage of lluids from passageways, and also serves to bias each of the Valves in their closed position when the other valve is in the control position. The construction of the valves and linkage means connecting the valves to the valveoperating member 55 will now be described with reference to Figs. l, 2 and 4. L

Each flow opening S7 of the passageways 26 and 27 is4 controlled by similar Valve closure means 88 and 89.

YSince each of these valve closure means is identical, only one will be described and this will be that vfor the. hot water passage 26, as Vshown in 'Figsl, 2V and 4. VEach passageway 26 and 27 has mounted therein a combined flow-control member and gasket support 9d. The flow-k control portion is cylindrical in form and complemental r lto the passageways 25 and 27. This member has'three n rilutes gl symmetrically arranged and with the inner end having the larger end tapering inwardly to a smaller f In the particular embodiment showinV the inner chord is substantially V16 and the outer chord chord diameter.

is substantially e", and the diameter of theV flow-control aga-saar memberissubstantially.Z". integrally forrnedwith the y Vilow-control member is a knurled annular'` disc- 9.2'for receiving an annulardisc washer 93 formed from rubber or othersuitable Ysealing material such as neoprene and 'the like. The hole of the annular washer 93 is complementally :formed to tightly fit Va reduced `portion 94 of lesser diameter than the ilow-control member 90, as shown in Fig. 4. The now-control member and gasket support is formed with a drilled and tapped threaded hole to complementally receive a threaded `end 95 of a universal linkage 96V which operatively connects thc 'flowcontrol member and gasket support 90V to the valve-operating member 55. The lock nuti97 secures theflowcontrol member and gasket support 90 in its adjusted position on the universal linkage 96.

" In order to permit the connection of the linkage 96 from the flow-control member 90 to the valve-operating member 55, a drilled passageway 98 extends from the semi-spherical opening 50 inwardly as shown in Figs.`2 and 4, and extends to the inner face of the spout housing 34 by a smaller drilled passageway 99 which is complementally formed to the outer diameter of the universal linkage rod 100. In order to seal the linkage rod 100 to prevent fluid from leaking fromtheamixing chamber 28 into the spherical chamber of the valve-operating member 55, an enlarged passageway 101 is provided which is suitably threadedV to receive aV complementally formed threaded packing nut 102, to suitably compressa rubber `or Vneoprene annular gasket 103 to seal'theY peripheral surface of the universal linkage rod 190 and' yet permit the linkage rod 100 to slide freely therethrough. The annular' threaded packing'nutmay be provided with two diametrically opposite drilled holes (not shown) Vto take a suitable wrench for detaching and attaching the packing nut 102 in place for repair and replacement of .the gasket 103. l

j The universal linkage mechanism 96 includes'the linkage rod 100 which extends through the mixing chamber 28 and into the passageway 98 to where it is universally coupled to another linkage rod 104 which extends from the linkage rod 100 to the valve-operating member 55. The linkage rod 100 is threaded at the inner end at 95 for connection to the flow-control member 90 asl described above. At its outer end it is formed with'a spherical end 105, Fig. 4, and this is oppositely connected with linkage rod 104 having a complementally formed spherical socket member 106. This spherical socketmember 106 is preferably formed integrally with the linkage rodA 104, and is provided with a substantially completed spherical socket `for receiving the spherical wall or end 105 of the linkage rod 100. The end Vof the spherical socket member 106 may be spun over suiciently to retain 'the spherical end 10S within its complementally formed spherical socket member 106. Clearance is provided at the 'end Yof the linkage rod 100 to permit angular movement of the linkage rod 104 in any angular position with respect to the slidable linkage rod 100 from its full closed to full open position or intermediate position.

The outer end of the linkage rod 106 is formed with a spherical ball 107 to provide for universal adjustment atk its connection with the valve-operating memberA 55. The valve-operating member 55 is provided witha complementally formed opening 108 formedin a face 109 of the valve-operating member 55. `In order to provide the opening 108 for the ball and socketV joint 107-108, a hole 110 is drilled `at an angle to the face 111 of the member 55 and suitably tapped after the socket connection 108 has been formed to threadably receive a threaded nut 112 having a complementally formed cavity 113 complemental to the spherical surface of'the u' ball 107. The threaded nut 112 is formed with a socket Y opening 114 to take a wrench to adjust the nutlto complete the ball and socket joint. A similarly formednut 115 is also provided with a similarly formed socket opening 114 for a wrench and this nut is used to lock the nut ms 'its aapiusfe'd posities. wifhmisftauaadlesta Y' joint, the valve-operating mem-ber'55 may' be adjusted in all of its Iadjusted' positions.

1' In order to provide suitable clearance for the linkage rod 100 of the linkage means 96, the valve-operating )member 55 for each of the valve closure means 88 and 89is formedwith a recess 116 and 117, Figs.` l, 2 and 4. On the face of the substantially spherical` member 55, a sphericaljtriangleisformed and the materialtmoved along the legs 118, 119 and 120 'of the` spherical-triangle. The sides of the recess or planes `therethrough y109, 121- are 'atan angle greaterthan 90`-as shown in Figi 4, but are perpendicular to the thirdside `122of the recessj These 'recesses 116 and 117 of this lsphericalmernber 55 give universally the passageway-s inany po'sitionof the "operatinghandle 63 in the closed position as shown in Figli, 'to the maximum full open position for the cold water and maximum full open position for the-hot water, as shown by the` adjustment permitted by thespherical triangular opening 67,Fig.3.f

It is alsopossible to socket construction, for example, by having a plate on 4the face 109 forming a 'socket to receive the ball 107 Vand the plate being held in place on the face 109 by suitvable securing means. l Similarly, it is also possible to providela modified spherical socket member 106, which instead of being formed integral with thelinkage rod 104 may be formed separately and threadably aixed to the end of the linkage rod 104.I i s 4 Although it is preferred to construct: the Abathtub mixing valve of Figs. 1, 2, 3 and 4, as shown in the two separate main parts, the mixing body portion 23 and its pass sageway, and 'the spout housing 34 and its associated passageway in this particular instance with thedischarge spout 35. integral .with-the spout housing, it is also'within` .the scope of the invention that the bathtub mixing faucet -may Vbe constructed in three parts, for example, with the separate discharge spout, a-separate casting forA the .valvef'operating mechanism and a thirdcasting including the mixing chambers 4and openingscorresponding tothe passageway 101 for supporting `the universal` linkage mechanism. vWith the preferred construction, asl shown, the spout housing 34 is detachably` assembled 'on the main body portion 23 by four elongated set screws 123 formed with an Allen wrench'socket .opening 124. The elonvided atthe ow openings 87 maybe readily inspected as i may he the annular washers 93 therefor. Also the flowcontrol membersmay be inspected landif necessary the rubber or neoprene gaskets 103 may bev inspected and freplaced. Likewise, the valve member 40 and its gasket 43 for theshower head may beinspected. l While the valve operating mechanism is removed in `this manner, itis `further possible to disassemble the semi-spherical .housing 5 3k fromY the'semi-spherical housing 50 by the vdetachment ofthe set screws 58, 'whereupon it is possible to inspect the universal, linkage, mechanism, and

a the ball and socket mechanism as wellas the `springbiasing vmeans 77. The members may zbe assembled in the reverseorder. A ,bathtub mixing faucet of this type is usually Vnot mounted on the bathtub but is assembled above the bathtub and extends through theV wall where it is connected to the'hot and coldwater pipes 21 and 22. In 'order to securely -mount4 the `bathtub faucet inposition 'and also `,to support the piping 31 'for the showerY head, 4lugs 12,8 and 129 are providedv for axing tosuitable Vframing of "the wall contiguous* towth'e bathtub faucet provide a modified ball and l and are provided with holes 1-30 for; mounting suitable securing means to extend through the, openings into studding or other framework. With this improved construction, it is possible to assemble the bathtub faucet in position so that the piping 21 and 22 is mounted within the studding of the wall contiguous to the bathtub and with substantially one-half or three-quarters of an inch to the left of the juncture of the spout-.housing 34 and main body 'portion 23 fprotru'clingso that suitable tiling or other surfacing maybe applied to the wall for a recessed bathtub or thelike.

It is also preferred to make all parts,.such asa valveoperating member 55, the spring-biasing means except for the spring though this may be made of bronze, the flow-control member and all of the lock nuts which may come in contact with the fluid to be mixed, from noncorrodible material such as brass and preferably from solid brass rods or castings which may then be. suitably machined. It is also within the scope of the invention that certain parts may be suitablyl die-cast and also formed from suitable sintered .powdered metal to reduce the cost of the mixing valve construction. All of the exterior parts are suitably nickel-plated and a protective coating of chrome plate may be applied as desired to complete the v ornamental appearance of the bathtub iixture. Other modifications of material and invFig. 2.. ln this manner the holes are directed tothe mixing chamber 28 whichvare then controlled *bythe` valve closure means 88 and 89 as similarly described with reference to Figs. 2 and14. Therefore, further de A scription of Vthese members isy believed unnecessary with vided by forming a cone-shaped member 1437at the outer v end of the discharge passagel141, and the discharge spout 142 at its lower endV is formed with'a compiementally structure may occur to those skilled in the art without departing from the scope of the invention. l

Referring to Figs. 6, 7 and 8 there will be described a preferred embodiment of my invention for a m'ming valve and faucet of this type modified for use withY a kitchen sink which may be of either a single or double basin type.

This embodiment 131 of the mixingvalve and faucet is operatively connected to a sink 132 and attached to a hot water supply pipe 21 and acold water supply pipe 22 extending through suitable holes 21 and 22' of the structure 13?.. The modified mixing faucet 131 similarly comprises a main body portion 23a having laterally extending right and left hand integrally formed portions 133 and 134 in which are cored similarly formed horizontal pas- `sageways 135 and 136 for cold and hot water, respectively. The integrally formed portions 133 and 134 have similarly arranged passages 137,l 137', and 138 and 138 which are suitably drilled and tapped for 1/2" pipe threads. The pipes 21 and 22 are connected respectively to they threaded openings 138 and 137, aud the inner threaded openings 138 and 137 are plugged with 1/2. pipe plug 139. The inner openings 137' and 133 are spaced four inches apart, whereas the outer openings 137 and 13S are preferably spaced 6" apart. This mixing faucetis formed in this manner to accommodate the various hole spacings of conventionalkitchen sinks. If there should be other spacings, the integrally formed portions 133 and 134 may be so formed as to take wider spacings if necessary. it is preferable to form the body portion 23u and the integral lateral portions 133 and 134 from cast brass or other suitable ferrous or non-ferrous metal which would not be subjected to corrosion by the fluids being dispensed therefrom.

In this embodiment a spout housing 14h is ralso preferably integrally formed with the main body portion. It is also within the scope of the invention that this portion may be separately cast and suitably aflixed as is well nown in the art but in order to reduce the cost it is preierable to integrally form the spout housing 149 as illustrated in Figs. 7 and 8, and there may be suitably cored therein a passageway 141 connected to a mixing charn ber 2S (not shown) similar to the mixing chamber 2S of the embodiment of the mixing faucet of Fig. 1. Other- Wise, the construction of the main body portion 23a is similar to the construction described with reference to the embodiment of Fig. l. The passageways 135 and 136 are similarly arranged to the passageways 25 and 24 of the embodiment of Fig. 2, and are connected'to similarly.

formed drilled passageways 27 and 26', also as illustrated formed conical-shaped memberiddto-that of the cone# shaped member 143, as shown in Fig. 8. An annular recess 1.45 is formed to swivelly mount therein the. lower end of the cone-shaped memberltdd. rlodetachably throughthe'passageway Mldirectly into an opening 141 extending through the discharge spout. y, v

The Valve-operating mechanism7 Fig. 6. and Fig.v 7, lis similar to the valve operating mechanismdescribed. with reference to Figs. l, 2 and 4, with the exception that the housing therefor 34a, Figs. 6 and 7,y is positionedr verti. cally rather than horizontally as compared' to thespout housing casting 34 of Fig. 1. Also the spout housing 14d is integrally formed withjthe main body portion 23a 35v rather than being connected to the housing 34a as described with reference to the construction of the spout 35 integrally formed with a spout housing 34 of Fig. 1. Other than this, the construction of the valve operating member 55, the spherical housing 511 and 53',v the spring-V biasing means 77 and other features of the universal linkage and packing members and washers are described with respect to Fig. 1, are identical and need not befurther described. Also'identically constructed to the housing member 73 and the only difference is in the shape of the operating handle 63a from that of the operating handle 63 of Fig.l 1. As shown in Fig. 6, this operating handle is combinadas shown since it is positioned to the rear in the assembly as showny in Fig. 6 rather than at the top as shown in Fig. 1. This change is due to the change in position in the embodiment of Fig. 6 fromthat of Fig. 1. As the assembly andl disassembly of the mixing faucet of Fig. 6 is identical to that of Fig. 1, further description of this modified form of mixing faucet is believed unnecessary. It is also evident that further modifications may bemade by one skilled in the art without departing from the scope of the invention. n

' In order to provide additional ornamentation for the Vmixing faucet for the sink and to furnish twin soap dishes,

to the periphery of the housing 23a and 34a to substaritially enclose lthe mixing faucet as shown in section in Fig. 6 vand Fig. 7. In order that the ornamental housing 150 may be readily removed, the circular opening' 152 is provided and is such a size to be detached over the spherical enclosure 153 formed by the semi-spherical housing 50 and 53. A rectangular recess or slot 154 complementally formed 'to the sides of the sides of the spout housing permits the ornamental housing to vbe properly positioned. The ornamental housing is secured in position with respect to the mixing faucet by countersunk machine screws 155 extend@ ing through` complementally formed countersunk holes heavy plating of nickel and chrome shall be applied to the ornamental housing 152 to withstand the detergents in the soaps and other corrodible fluids encountered in the kitchen. It is also preferred to form the housing 150 from sheet brass orother non-corroding metal and it might be either press formed or die cast as is well understood in the art.

Referring to Figs. 9 and'lO, `there isillustrated another embodiment 160 of my invention illustrating a preferred 44formY of 'the mixing faucet of this invention adapted for usewith bathroom lavatories.

similar to the previously described embodiments of Figs. 1 through 5,; andV also ofFigs. 6 through 8, the only modification being in the main bodyportion 23b wherein a modified down spout 161, shaped as illustrated in Figs. 9 and 10, is integrally cast with the main body portion 23b since there is no need for a swivelling spout as in the kitchen sink embodiment of Figs. 6 through 8. The spout 161 is provided with a discharge passage 141x: corresponding to the'passage 141 of Fig. 8 which in turn is connected to the modified mixing chamber 28a. The housing Vportion 23b as similarly formedright and leftliand integrally formed portions 1 33 and 134 which are provided with similar cored passageways 135 V'and 136'as the embodiment of Fig. 7.` Likewise, similar,- 1y `formedthreaded ,openings 137 and '137' are operau This mix-V `ing faucet primarily used for `bathroom lavatories is tion to clear the Awall ba'ck. ofthe' lavatory ifthel lavatory is provided `only with small clearance between the. en.- trance of the piping and the wall from the back face of the-lavatory (not shown). However, in this modified handle arrangement, it wouldstill be necessary to use a shortstud in'place of the spindle 72" extending to the outer end of the collar74 so that the housing member 73' maybe aixed to this shortened-stud which would be comparable tothe lower end of thespindle 72`of Fig. l,

and would include the threaded 'pend 464 `and'extend to the upper end `of the c ollar 74 ofFig. f1.1 A modified ornamental housing150r z may be provided in place-of the` housing 150 provided with soap trays 1,51. Howl ever, the ornamental housing 150 -rnay likewise be subl stituted for the housing 15( )a if desired. In this embodil nient of'thehousing 15M,` an ornamental basemember 150b` is provided witl1""a"rec'ess 163 to .clear the down:

tively connected tothe cored passageway 135, and the` threaded openings `138 and 138' areV operatively connected to the cored passageway 136. .The openings 137 and 137 in thisv instance have secured therein the detachable 1/2 pipe plugs 139 as all `of these openings member 55. The only diierence between this ernbodi` Ament and in the embodiment of Fig. 6.is that the spout constructions therefor are operatively connected to the mixing chamber 28a directly' rather thana suitably valvecontrolled passage in the spout housing34 of the embodiment of Fig. f1. Therefore, like 4reference characters will indicate the same or. similarV parts and further description of the valve operating means is unnecesvsary as it has been fully described with reference to the construction of Figs. 1, 2, 3, 4 and 5. In` theY crosssectional viewrof Fig. 9 there is illustrated the univer sal linkage mechanism 96 including the linkage rods 100, 104, the annular discwasher 92, the flow-control member 90, therpackingnut 102 and gasket0103 similar to the construction as described with reference to Fig. 4 of thebathtub mixing faucet of the` embodimentV of Figs. l'through 5. The spherical enclosure 15,3 for'the valve operating mechanism or member 55, its associated parts, is likewise of the same construction as that described ,with Vreference to Fig. 4 and need not be further` described. The operating handleV 63a is the same as is the enclosure for housing member .74, the spherical triangular openings 67 permits the adjusting of the operating handle in any of its operating positions.

In Fig. 9 there is illustrated'a` modified operating handle arrangement 63h which includes the same spindle 72 as an embodiment of Fig. l but the housing member 63 is modified to the dottedv portion 73' in order that the hand1e63b may bein a somewhat more verticalV posispout 161. The base is provided with'aperipheral lip construction 164 tolcomplementally' receive the downturned edge 165 of an ornamental cov'er 150e and the cover is provided with an'kopening' 166 with a notch 167 to complementally receive the housing34a andthe upper part of the spout 161. This modified ornamental housing `150e maybe formed from sheet metal or die cast Vmetal suitably plated and polished. The ornamental housing 150a is aixed in place bythe countersunk machine screws in threadedlengagement with the cornplementally threaded holes 156`and the laterallyiexteinding"portions 133 and 134. i'

Referring to Figs'.A 11, 12, 13,14and15, another ern` t bodiment of my invention `for an improved mixing faucet foruse` with either'a single basin or twin basin kitchen sink and which also has operatively connected thereto a spray nozzle for spraying dishes` and the like, together with a control valve for shifting the discharge of hot, cold or the blended mixture of water or the like iiuid directly to the discharge spout into the sink orto the spray nozzle as' desired. The principal features of construction, such as the valve-actuating mechanism and the like for the control of the uids from the hot and cold water passageways, is identical as described with reference to the' embodiment of Figs. 6, 7, and 8, and also as particularly described with reference to the embodiment of Figs. l through 5 for a bathtub mixing faucet, and also the controls are the same as described with reference to Figs. 9 and l0 `for the lavatory faucets. Since the controls are identical as previously described, these Figures l2 through 15 inclusive, only illustrate the modified body -portion which comprises the modiiication of the body portion 23b to receive the spray hose connection and also the modified valve construction for controlling the Vdischarge' to the spout and to the spray nozzle. The

valve-operating mechanism and associated mechanism have been detached to bettershow the passages for the l spacing 4 and V6" centers for hot and cold water piping,

the embodiment of Fig. 11 is adapted to accommodate the three center spacings `of 4, 6 and 8". Therefore, in addition to the previously described threaded openings 137, ,137 extendinginto the cored passageway 135a, i

there is a third passageway 137". Also in addition to the threaded passageways k138,4 138 extending into the elongated passageway 135a, there is a third drilled and l tapped` opening 138". Itis preferred that all `of these openings be threaded ford/z" pipe thread, though it is Vto beunderstood lthat'other sizefopenings may be pro.-

vided as desired without departingfrom the. scope Lof apanage the invention. The horizontal laterally extending passageways may be cored or drilled and if drilled, the ends thereof would have to be plugged as is well understood in theV art.

As in the other embodiments, the passageways 137 and 133' are connected to the cold and hot water supply pipes Z2 and 21, respectively, and the other openings 137 and137", and 13S and 13S" of this embodiment are closed by 1/2" pipe plugs 139. ln the arrangement as described, the supply pipes 22 and 21 areon 8 centers, and this corresponds to holes on 8 centers of the cabinet-type kitchen sink tops.

the portv176' and the passageways 177, 178 and 1'75 toY i 'of' the spray nozzle 173. Upon actuation of the thumb The passageways llSSa'and l136e extend through the housing 23h and to the vertically drilled passageways 27 and 26, respectively which are operatively connected to the mixing chamber 28a.

1n order to discharge the water lfrom the hot and cold pipes 21 and 22 from the mixing chamber 2S, a valve chamber 170 extends downwardly to accommodate a control valve 171 for a spray hose 172. The valve mechanism 171 and spray hose connection will be described later. A discharge passageway 141e connects the valve chamber 171i to the swivelled discharge spout 142 through its passageway 141 therein. This passageway 141a and the swivel discharge spout 142 `are `similar tothe Yembodiment described in Figs. 6, 7 and 8,' only that the passageway 141e is lower than the passageway 141 in Fig. 8 in order to accommodate the connection to the valve chamber 176. In all other respects, the connection is the same and therefore reference is made to Fig. 8 for the details of the swivel construction which is clearly shown in cross-section, whereas in the embodiment as shown in Fig. 11, it is dotted in with the exception of the hexain its operative position on the spout housing 140 which is operatively` connected by a continuation of the opening 14151, as shown in Fig. 8. The swivel discharge spout 1d?. is operative to discharge in any angular position with respect to a single basin or twin basin sink.

1n order to operatively connect a spray hose 172 including a spray nozzle 173 and a thumb control valve 1743, the spray hose 172 is connected to arl/z threaded pipe opening 175, the spray hose 172 having a suitable l/2" fitting ailixed thereto to be connected in the threaded opening 175. The discharge from the mixing chamber 2da discharges through a port 176 operatively connected to the bottom of the valve chamber 170 and located forwardly of the two vertical passageways 26 and 27 and intermediate the axes thereof. The openings to the passageways 26 and 27 are in the bottom face of the mixing chamber 2da. From the port 170, the passageway 177 extends downwardly a slight distance and thereafter enters an inclined passageway 178. These passageways 177, 17d and 175 are preferably suitably cored and cast within the housing Zb. However, the passageway 175 is suitably drilled and tapped afterwards to provide suitable threads. lt is to be understood that these passageways can be suitably drilled but when drilled it will probably be necessary to plug part of the drilling which may extend to one ot the faces of the housing `23b as is well understood in the art.

in view of the passageways provided in the lateral extensions 133m and 13de and in the Vhousing 23h, cold and hot water may enter the passageways 13311 and 13411 and discharge through the vertical passageways '27 and 26 to the mixing chamber 28a. With the control valve 171 as shown in Figs. l2, 13 and 14 and also in theexploded position thereof, Fig. ll, the hot,` or cold discharge thereof can be discharged through the valve chamber 170 in view of the recessed portion 179 and the valve 180, andv out through the passageway 141a through the passageway 141' of the discharge spout to the sink. The lower portion of the valve 180 which is semi-cylindrical portion 181, completely shuts otf the discharge of hot or cold Vwater or a mixture thereof, from the chamber 28a through gonal locking nut 146 which retains the discharge spout control, dishes and the like may be suitably sprayed with the hot, cold or blended mixture.

Referring to Fig. "1l, the yparticularV control valve 161 will be described with reference to the exploded view thereof. The valve chamber 17? which is in communication with the mixing chamber 28a has a somewhat rectangular openin" 133, Fig. 12, which is formed by the intersection of the passageways 184 and 185 for the .reception of 'the cylindrical end of the cylindrical valve 180 and the plane of the bottom of the mixing chamber 28a. n

'Ihe valve chamber17l is also in communication with the passageway 141e for the discharge of the fluid tothe discharge valve, and is also in communication with the port 176 formed by the juncture of the passageway 177 and the valve chamber 170, and is for the discharge of the iluid to spray nozzle 173.Y The cylindrical valver180 is formed with a recess portion 179 which when properly rotated permits disch-arge of tluids from the mixing chamber 28a to the discharge spout 142 and in a position 90 therefrom, as shown in Fig. 14 in the dotted position thereof from its discharge of the liuids from the mixing chamber '28a tothe spray nozzle 173. With the semicylindrical portion 181in the solid position as shown in Fig; 14', the passageway or port'176 is closed so that the fluid from the mixing chamber 23a is discharged only to the discharge spout 142 through the passageway 141a.

With the semi-cylindrical portion 181 in the dotted position, as shown in Fig. 14, the mixing chamber discharges iiuids only to the spray hose 172 through the port 176; the opening 186 to the passageway 141a of the discharge spout being closed. Y

The cylindrical valve 131i is formed with a spindle 187 andthe end of the spindle is formed with a-squared, or knurled end or the'like 188 which extends into a cornyplementally formed square opening 189 of an operating end 188 extending beyond the face of the main body porl Y tion 23 to receive the operating lever 190. lf desired,

a suitable rubber or neoprene gasket 193 may be placed over the spindle 187 to stop any leakage of fluid about the peripheral surface of the valve 1811; The gasket 193 is suitably held in position by 'a threaded nut 194 complementally formed to the threaded opening 192 and may be suitably tightened in position by a wrench engaging the drilled holes 1%. v The threads of this nut are preferably 31"sixteen threads per inch. In order to additionally prevent any leakage about the stem 187, a similarly formed nut 1% is complementally threaded to the complementally formed opening 197. VIf desired,'a suitable gasket may be inserted to prevent any leakage of tiuid about the spindle 187. After the cylindrical valve 1515 and its associated securing means have been positioned within the associated Valve chamber 170 and threaded opening 192, the operating lever 190 is positioned as shown in the dotted lines so that the squared end 18S is mounted within ,the complemental opening 1879.

`and 202 are located as shown in Figs. .11, l13 and 15, and

with the operating lever 190 engaging the lower stop 202,

the discharge of fluids from themixing chamber 28a"isv only through the discharge spout 142. Upon raising the operating lever to the dotted position as shown in Figs. `11 and,15, uids from the mixing Achamber 28a are dischargedonly to the spray 'hose 172, and upon'operation of the thumb control 174 of the spray nozzle 173, the discharged fluid may be sprayed where desired.

L As stated previously, the associated valve-control mechanism including the housing therefor, as described with reference to Figs. 9 and l0, Figs. 6 and 7, and Figs. 1, 2 and 4 as used to control the passageways 26 and 27, and the housing 34a and its associatedmechanism, as illustrated in Fig. 9 is assembled in position on the upperV face 263 of the mainbody portion 23b and is suitably secured in position by the elongated vset screws 123 as shown in Fig. l, mounted in the openings 204. Thereupon, by` the manipulation of the operating handle 63a; hot, cold or blended fluid may-be discharged through the spout 142 or to the spray hose 172 depending upon the setting of thevoperating lever 190 of the control valve171 for controlling the discharge of the hot, cold or blended uids `either to theY discharge spout 142 or the spray hose` 172. v

It is to be'understood that the sprayhose and spray nozzle 172 are located contiguous to the mixing faucet 'as is well understood in the art so that the spray hose may be pulled outward o1' drawn back in, upon release, beneath the sink. Y

It is also to be understood that the control valve or vertical lift valve 37, as described with reference to Fig. 1, might be suitably modied with a mixing faucet construction of Fig. 11 for controlling the fluid discharged through the discharge spout 142 or to thespray nozzle 172 without departing from the scope of the invention. Other modifications will suggest themselves to one skilled in Athe art. If it is desired to have soap trays, the ornamental housing 150 and soap trays 151 of Fig. 7 may be used without departing from the scope of the invention but in the embodiment of Fig. 11, a larger ornamental housing may be required in viewof the fact that this embodiment is for use with hot and cold water piping spaced either 4", 6 or 8". Likewise, the ornamental housing 150a of Fig. 10 may be used with suitable allowance for the largersize ornamental housing` required in the embodiment of Fig. 1l than in Fig. l0. lt is also to be understood that it is within the lscope of theinvention that all parts subject to corrosion may be made of suitable castbrass parts, or die cast from suitable sintered metal to further reduce the cost. Also,

all of the ornamental surfaces are to be suitably copperY uses mentioned. l i

What I claim as `-new and desire to securerby Letters Patentis:A ,j it

l. A-mixing valveycomprising a main body portion formed with a mixing chamber operatively connected to passagewayssaid passageways being adapted for conneetionV to respectively V,hot and cold water lines, adischarge spout connectedto the `mixing chamber,`valve meansv operatively associatedv with ,said ymixing chamber for controlling'the aforesaid passageways for hot and cold water discharge to themixing chamber, a spherical socket housing operatively associated with said main j'body portion,j`said `4valve means operatively mounted within said spherical Vsocket housing and includinga valve-operating member, disc valve means fortclosing each of said first-mentioned passageways, universal linkage means for each of said disc valve means pivotallyV connectecl at oneend to said disc valve means and pivotally connected at` the other end to said valve-operating member, said universal linkagemeans including linkage rods universally/#connected togetherforangular and longitudinal movement, means for universally mountingsaid valve-operating member for operating said disc valve means for closing each of said first-mentioned passageways and opening one or the other of said first-mentioned passageways and vfor `intermediate opening of said passageways for' blending `the mixture of hot and cold uids within said mixing chamber, operator-oper- .atedj means operatively connected to said valve-operating member for actuating said valve-operating member within a pre-determined triangular areafrom full closed at one apex for both of said/disc valve means, full open at anothergapex for -the passageway `for hot uid, full From the foregoingdescription, it is obvious that` there have been disclosed several'embodiments of irnproved faucet construction for use either as a fixture for a bathtub, a lavatory, a kitchen sink and which also may t be used with a shower head for a bathtub, and also with spray heads as an attachment for kitchen faucets. These embodiments of the various mixingfaucets may be simply and economically fabricated and arereadily disassembled `for repair and replacementof parts. ln addition, a minimumof parts are Vrequired for modifying certain faucet parts thereof into the various 4embodiments which have been described. i

Having thus described my invention, it is obvious that various immaterial modifications may be made in the` open at the third apex for the passageway for cold Huid, and within the triangular area for blending the liuids and .along two sides of the triangular area for controlling therespective, discharge of the fluid passageways and along the base of the triangleY for blending and controlling the amount of mixture discharged.

2. A mixingfaucet comprising a main body portion formed with-a mixing chamber operatively connected toa plurality of `inlet passageways, said passageways being adapted for fluidV connection to inlet lines for different fluids, a discharge spout operatively connected to .the mixing chamber, valve means operatively associated `with said mixing chamber for controlling the aforesaid socket housing operatively associated with said main body portion, said valve means operatively mounted within said spherical socket housing and including a valve-operating membendisc valve means for closing each of said firstmentionedpassageways, universal linkage means for each of said'disc valve means pivotally connected at one end to .said disc valve means and pivotally connected at the other `end to said valve-operating member, means for universallymounting said valve operating member for operating vsaid disc valve means for closing each of said first-mentioned passageways and opening one or the other of said tiret-mentioned passageways and for intermediate openjing of said passageways for blending the mixture of hot and cold uids within saidmixing chambers, operatort Ioperated means operatively connected to said valve-operating member, said valve-operating member operatively `mounted within said spherical socket housing forrotation about one axis of the valve-operating memberl and for` rotation about another axisof the valve-operating member at right angles to the first-mentioned axis within apre- 1 determined angular movement `.of the valve-operating vmember about the, first-mentioned axis, a triangular opening provided in the aforesaid spherical socket housing for angularly limiting the angular movement of the valve-operating member about each of its axes interapanage seoting at .rightangles thereto at `snbstantially the center of the aforesaid 'spherical socket housing, -said valveoperating .member complementall-y formed toa spherical chamber withinsaidispherical socket housing, and ,springbiasing means operatively engaging the spherical .surface of the spherical .socket housingV and the valve-operating member for biasing .the disc valve means in their closed position and for operatively maintaining the operatoroperated means in any of its adjusted positions. u

3. A mixing vfaucet comprising a main body portion formed with a .mixing chamber operatively connected to a plurality of inlet passageways, said passageways being adapted for Huid connection to inlet .lines ,for ydifferent fluids, a discharge spout operatively connected to the mixing chamber, valve means operatively associatedwith said mixing chamber for controlling .the aforesaid inlet passageways to the mixing chamber, a spherical socket housing operatively associated with said mainbody portion, said valve means operatively mounted Withinsaid spherical socket housing and including a valve operating member, disc valve means for closing each of said firstmentioned passageways, universal linkage means opera-v tively connecting said disc valve means andsaid valve operating member, means for universally mountingsaid valve operating member for operating said ,disc valve .means for closing each of said first-mentioned passageways and opening one or the other of said iirst-mentioned vpassageways and forintermediate opening of s aid passageways .for blendingithe mixture of hot and coldlluids within said mixing chamber, operator-operated means operatively .connected to said valve-operating member, said valve-operating member operatively mounted with- .in said spherical 4.socket housing for rotation .about `one axis of lthe valve-operating member land lfor rotation about another axis of the valve-operating `member at right angles tothe first-mentioned axis'within a predetermined angular movement of the `valve-operating member about the first-mentioned axis, a triangular opening ,provided in the aforesaid spherical socket housing for angularly limiting the angular movement `of the valve-operating member about each of its axes intersecting at right angles thereto at substantially the center of the aforesaid spherical socket housing, said universal linkage means comprising a linkage rod operatively connected to the disc valve means permitting rotation of the disc valve means about the longitudinal axis of .the universal linkage rod, anotheruniversal linkage rodvoperatively connectedto the first-mentioned universal linkage -rod and to the valve-operating member, a universal connection operatively connecting the two universal'linkage rods together, :permitting angular relative movement ofthe universal linkage rod withrespect to each other and rotation of the linkage rods'withrespect to each other,

va complementally formed universal connection between the .outer end'of 'the second-mentioned universal linkage rod and the valve-'operating .member permitting angular :movement and rotational movement between the'valve-operating member and `zthe outer end of thesecond-mentioned universal linkage `rod, and means operatively mounted on the spherical socket housing for slidably` .mounting the first-mentioned universal linkage rod yand forv sealing 4thedirst-'mentoned universal linkage rod vin lthe adjusted positions of the vdisc `valve lmeans from full closed to fullopen position.

4. Amixing faucet lcornprisingza main 'body portion formedwith 'a'mixing chamber voperatively connected to a plurality `of inlet'passageways,-said passageways lbeing adapted for uid connection vto inlet lines for different ui'ds, a discharge spout operatively connected to the mixing chamber, valve means operatively associated with said mixing chamber for controlling the aforesaid inlet passageways to the mixing chamber, a spherical socket housingoperatively associated with said main body-por v' tion, fsaid valve means operatively mounted vwithin :said sphericalsocket housing rvand including av valve operating member, `disc: valve means for closing each of ,said first- Imentioned passageways, universal linkage means opera kltivelyconnecting vsaid disc valve means and said valve eratively connected to said valve-operating member, said valve-operating member operatively mounted withinsaid spherical `socket housing for rotation about one Vaxis lof the vvalve-,operating member and for rotation about ,an-

other axis of the valve-operating member at right angies tothe first-mentioned axis within a `predetermined angular movement-of the vvalve-operating member about the first mentioned axis, and a triangular opening prov vided in the aforesaid spherical socket housing for angularly limiting the angular movement of the valve-.operating member about each of its axes intersecting at right angles thereto at substantially the center of the aforesaid spherical socket ;housinguniversal linkage means for each of said disc valve means, each ofsaid universal linkage vmeans including universal linkage rods intermediatelycon- -nected together for swivelling movement and angular movement with respect to each other, the outer end of kone universal linkage rod operatively ,aixed to itsrespective valve `means and the outer end ofthe other universal `linkage `rods swivelly connected to the valve-operating member, a passageway `for the universal linkage means between `the mixing chamber :and `the recess formed inv the valve-operating means contiguous to lgthe connection .of the -universal linkage @means to the valve-operating .-rnember, means -for slidablymounting the first-mentioned universal linkage rod and sealing thepassagetherefor permitting axial longitudinal movement of the `irst-rnentioned linkage rod, and the outer endof'the clearance passageway and the aforesaidrecess of the valve-operating'rnember permitting angular movement of vthefsecond Yuniversal linkage frod with respect to `the.first-mentioned universal linkage rod and also angular gand swivelling lmovement of the valve-operating -member with respect zto 'the second-mentioned universal linkage rod whereby the aforesaid disc valve means vmay be ,actuated from full closed to full'open and intermediate ,positions .-there- -of-i n the-angularadjustedipositionof the Vvalvefoperating member upon g actuation of theoperatoroperated means within its predetermined angular positions.`

A5.I A Amixing `faucet .comprising ;a main vbodyyportion formed with a mixing ,chamber operatively connected toa plurality .of yinlet passageways, .said passageways vbeing .adaptedforsiluid Yconnection to inlet lines for dit .ferent fluids, a discharge spout operatively. connected-to -valve-operating member, disc valve means for closing -each of said first-mentioned passageways, universal linkage means operativelyconnecting said d iscvalve means andzsaitl valveoperating member, meansfoiuniversalhr mounting said vvalve-operating member for .operating y said disc .valve means forv closing each of said lirstmentioned'passageways and opening one or .-the'other of lsaid first-mentioned Apassageways and for intermediate s opening ofsaid passageways for blending the mixture -of5hot and cold uids .within .said mixing..chamb'er,

operator-operated means operatively connected tosaid 4valve-operating member, -said valve-operating `member :operatively Vmounted within rsaid spherical socket ihous- `ingfor :rotation about one axis Aofthe valve-operating `vmember-and forrotation about another axisof thefvaljvekoperating member at right angles to the first-mentioned axis with a predetermined angular movement of the valve-operating member about the rst-mentioned axis, and a triangular opening provided inthe aforesaid spherical socket housing for angularly limiting the angular movement of the' valve-operating member about each of its axes intersecting at right angles thereto at substantially the center of the aforesaid spherical socket housing, said spherical socket housing including laterally spaced passageways for each of said universal linkage means, said valve-operating member provided with laterally spaced recesses in operative relationship with respect to the aforesaid laterally spaced passageways of the spherical socket housing, a ball formed on the outer end of each of the universal linkage means, complementally formedY means formed on the valve-operating member forming a ball and socket joint for each of said universal linkage means contiguous to their respective recesses, means for detachably mounting each of the ball means of the universal linkage means on the valveoperating member, and spring-biasing means operatively -ferent uids, a discharge spout operatively connected to the mixing chamber, valve means operatively associated with said mixing chamber for controlling the aforesaid inlet passageways to the mixing chamber, a spherical socket housing operatively associated with said main body portion, said valve means operatively mounted within said spherical socket housing and including a valve-operating member, disc valve means for each of said rst-mentioned passageways, universal linkage means including pivotally connected linkage rods for operatively' connecting said disc valve means and said valveoperating member, means for universally mounting said valve operating member for operating said disc valve means for opening and vclosing each of said rstmentioned passageways,*operator-operated means operatively connected to said valve-operating member, said valve-operating'rnember operatively mounted within said spherical socket housing for rotation about one axis of the valve-operating member and for rotation about another axis of the valve-operating member at right anglesv to the first-mentioned axis within a predetermined angular movement ofthe valve-operating member about the first-mentioned axis, and a triangular opening formed on the aforesaid spherical socket housing for angularly limiting the angular movement of the valve-operating member about each of its axes intersecting and at right angles thereto at substantially the center of the aforesaid spherical socket housing, said valve-operating member complementally formed to a spherical chamber within said spherical socket housing, spring-biasing means operatively engaging the spherical surface of the spherical socket housing and the valve-operating member for biasing the disc valve means in their closed position and for` operatively maintaining the operator-operated means in any of its Aadjusted. positions, said disc valve means for' each of said inst-mentioned passageways complementallyV threaded to adjustably receive a threaded end of `said contiguous linkage rod and including a iowcontrol member operatively mounted in each ofY said passageways, said flow-control member Vformed with flutes for diverting thefluid 'within the mixing chamber upon the `opening of the disc valve means, and said flowcontrol member operatively connectedvto said discvalve 20 means, and an annular-gasket operatively mounted on the disc valve means for sealing the `opening of the passageway contiguous thereto to the mixing chamber.

7. A bathtub mixing Vfaucet comprising amain body portion formed lwith a mixing chamber operatively connected to a plurality ofinlet passageways, said passageways being adapted for connection touid supply lines, valve means operatively associated with said inlet passageways for liu'id discharge to the mixing chamber, ra

spherical socket housing operatively associated with said main body portion, said valve means operatively mounted within `said spherical socket housing andV including a valveV operating member,l disc valve means for closing each of said lirst-mentioned inlet passageways, ow-control means operatively associated with saidV disc valve` means, said How-control means operatively mounted in each of said inlet passageways for aligning said disc valve t means with respect to the opening of the inlet passageways to the mixing chamber, universal linkage means including pivotally connected linkage rods operatively,

connected to'each of said disc valve means and to said `valve-operating member, spring-biasing means operatively v f'mounted within the spherical'socket housing and slidably connected between said valve-operating member and said inner periphery of the spherical `socket housing for biasing the disc valve means in the closed position of the disc valve means `and in any of the adjusted positions thereof between full closed and full opened position, operatoroperated means operatively connected to said valve-operating member, a spherical triangular opening formed on Athe spherical socket housing through which the operatoroperated means extend, said spherical triangular opening permitting angular adjustmentof the valve-operating member for maintaining the disc valve means in each of their respective open or closed position or intermediate adjusted positions for discharge of fluid from one of said inlet passageways, both of said inlet passageways for the mixture of the fluid discharged from the inlet passageway to the mixing chamber, a discharge spout operatively connected to the mixing chamber for `the discharge of fluids from either of said inlet passageways or mixture thereof, said spherical socket housing formed with a recess, and said 'discharge spout is voperatively connected to said recess. t 'i t 8 A mixing faucet comprising a main body portion formed `witli a mixing chamber operatively connected to a plurality of inlet passageways, said passageways being adapted for connection to iiuid supply lines,.valve means operatively associated with said inlet -passageways for u'id discharge to the mixing chamber, a spherical socket housing operatively associated with said main body portion, said valve meansoperatively mounted within said spherical socket housing and including a valve `operating member, disc valve means for Vclosing `each of said rsti mentioned inlet passageways, flow-controlvmeans operatively associated with said disc .Valve means, said flow- -control'means operatively` mounted in each of said inlet passageways for "aligning said disc valve means with respect to theopening of the inlet passageways to the mixi ing'chamber,` universal linkage means including pivotally iconnected` linkage` rods operativelyiconnected to each of 'sa-id'disc valve means and to `said valve-operating meml means in the closed' position ofthe disc valve means and in any of the adjusted positions thereof between full closed and full opened position, operator-operated means operatively connected to-said valve-'operating member, 4a

spherical triangular :opening `formed on the spherical socket housing through whichtheoperator-operated means extend, said spherical triangular/opening permitting angular adjustment of the valve-operating member for maintaining theidiscvalvevmeans in'eaclr oftheir V3'espective open or -closed posit-ion -or intermediate gadjusted positions for discharge of Huid from one of-.said inlet passageways, bothof said inlet passageways -for the mixture of the `fluid discharged from the inlet passage- Way'to the mixing chamber, and a discharge spout operatively connected to the .mixing chamberfor the discharge of `uids from either of 4said inlet Vpassageways or mixture thereof, -said spherical socket housing including a recessed chamber operatively connected to the aforesaid mixing chamber, said discharge spout operatively lcon- -inected to Asaid recessed chamber, a passageway operatively connected to said mixing 'chamber and extending to the rear of the main body portion and adapted for connection to `a bathtub shower head, valve means including disc valve means for contrlling the flow of fluid from the recessed chamber to the discharge s pout, said valve means including operator-operated means for adjustihg the valve means from its fully closed position lto its 'fully open position, said valve means in its open position permitting fluid to discharge from theniixing chamber to the discharge spout and inthe closed position of the valve means diverting lthe fluid from the mixing chamber to the passage foruid discharge to the bathtub shower head, said spherical socket housing formed with a face complemental to the outer face of the main body portion, said face of the spherical socket housing forming a closure for the mixing chamber of the main body po'rti'on, and securing means for axing the spherical l'socket housing to the main body portion;

'9. A mixing "faucet comprising a main body portion v'formed with a mixing chamber operatively connected 'to 'a 'plurality ,of inletpa'ssa'geway's, said passageways being adapted for connectionto lluid supply lines, valve mearis :operatively associated with said `inlet p'assagewaysfor 'duid discharge to the'mixing chamber, a spherical 'sockethousing operatively associated' with said "m'ain "body portion, said valve means operatively mounted within said spherical socket housing and `including a valve operating memlber, disovalve means for closing each ofjsaid first-men- 'tioncd inlet passageways, 'flow-control means Voperatively associated with said disc valve means, said flow-control means operatively mounted in each of said inlet passagev/a'ys for valigningsaid disc valve means with respect to the opening of the inlet -pas'sageways `to the mixing chamber, universal linkage means including' pivotally connected linkage rods operatively connected to each of said 'disc valvemeans and to said valve-operating member, springlbiasing'fmeans operatively 'mounted Within vthe spherical socket 'housing and slidaoly connected ybetween said valveoperating member and said inner'periphery of the spherical socket housing for lbiasing the disc valve means' in the closed position of the disc valve means'and in any ofthe adjusted positions thereof between fullc'lo'sed and full opened position, operator-operated means operatively connected to said'valve-operating member, a spherical triangular opening f'ormed on 'the spherical socket housing through whichthe operator-operated means extend, said Yspherical 'triangular opening permitting annular adjust- -ment of the valve-operating member for maintaining the disc valve means in each of their respective open or closed position or intermediate adjusted positions for discharge of lluid from one of said inlet passageways, both of said inlet passageways for themixtur'e of the liuid discharged from the inlet `passageway to the mixing chamber,'and a discharge spout operatively Aconnected to the mixing chamber ,for the discharge of fluids from 'either of said inlet passageways or mixture thereof, `a val-ve chamber operatively connected to said mixing chamber, alpassageway in said body portion operatively connected to said imixing chamber and adapted for connecting to a spray nhead, and yvalve means operatively mounted in said valve chamber for controlling thedischar'ge of fluid either kto f'the ldischarge Vspout `or to the passageway operatively connected to the 'spray head.

all), fA mixing faucet comprising a l main body portion T222 Y .formed with a mixing vchamber operativelyA connectedt inlet passageways, laterally extending integrally formed portions integrally formed with the main body portion,

horizontally positioned passageways provided in -said la-terally extending integrally formed portions and operatively connected to said :inlet passageways, said horizon-V Vspherical socket housing operatively associated with said main body portion, said valve means operatively mounted Vwithin said spherical socket housing and including a valve-operating member, disc valve means for closing -each of said first-mentioned inlet passageways, universal linkage meansl including ,pivotally connected linkage rods operatively connecting said disc valve means and said valve-operating member, vkmeans for universally lmounting said valve-operatingmember for operating said disc valve `means from full open positionto full closed position and intermediate positions thereof, operator-operated means operatively connected to said valve operating mem-Y ber for actuating said valve-operating member lwithin apredetermined triangular area of a triangular opening through vwhich the operator-operated means extends .from

'full clo'sed to full open `andintermediate positions of said operator-operated means for controlling the discharge from each inlet passage and for blending the-'fluid mixture discharged from the Vinlet passageways, rsaid valve-operating member complementally formed to the spherical sur- Vfacey of the spherical chamber formed by the'spherical .socket housing, and spring-biased means operatively en gaging the valve-operating member and the inner spherical surface of the spherical socket housing for biasing the disc valve means in their respective operating Vpositions. v

l1. A mixing faucet comprising a main body .portion formed with a mixing chamber operatively connected to -inlet passageways, laterally extending integrally formed portions integrally formed with the main body portion, l horizontally positioned passageways provided in said laterally extending integrally formed portions and operatively connected to said inlet passagewa-ys, said horizontal passageways including one or more passageways adapted for connectingthe mixing faucet to laterally spaced inlet pipes, the others of these passageways adapted-to -be closed, a spout housing integrally formed with themain body portion `including a passageway operatively connected to the mixing chamber, a swivelV discharge spout operatively connected to the spout housing for discharga spherical Asocket housing operatively associated withv v"said main Vbody portion, said valve means loperatively .mounted within said spherical Asocket housing and vincluding a valve-operating member, disc valve-means for `closing each of said first-mentioned inlet vpassageways,

`universal linkage 4means including pivotall-y lconnected linkage rods operatively connecting said discvalve means and said valve-operating member, means fo'r universally mounting said valve-operating member forfoperating said disc valve means from full vopen position 'to full closed v,position and intermediate positions "thereof, 'operatoroperatedfmeans operatively 'connected to saidvalvefoperating member for 'actuating'said valve-'operating"member -within a predetermined triangular area of va triangularV valve-operating member complementally formed to the spherical surface of the spherical chamber formed by the spherical socket housing, spring-biased means operatively engaging the valve-operating member and the inner spheri- .cal surface of the spherical socket housing, a valve chamber positioned below the mixing chamber, a passageway operatively connected to the aforesaid valve chamber at one end and at the opposite end operatively connected to a threaded opening, said threadedA opening adapted to detachably'receive a spray hose connection, valve means operatively mounted within the aforesaid valve chamber, operator-operated means operatively connected to the aforesaid valve means, said valve means provided with a port whereby in one position of the valve means the fluid from the mixing chamber is discharged to' the `swivel discharge spout, and in another position of the -valve means, the uid from the mixing chamber is discharged to the passageway for the spray hose, and in either of said positions of the valve means, fluid from the mixing chamber may not be discharged to the passageway closed by` the valve means. v

Y 12. A mixing faucet comprising a main body portion formed with a mixing chamber operatively connected to inlet passageways, laterally extending integrally formed portions integrally formed with the main body portion, horizontally positioned passageways provided in said laterally extending integrally formed portionsfand operatively connected to said inlet passageways, said horizontal pasf sageways including one or more passageways adapted for connecting the mixing faucet to laterally Vspaced inlet pipes, the others of these passageways adapted totbe closed, `a spout housing integrally formed with the main body portion including a passageway operatively connected to the mixing chamber, a swivel discharge spout operatively connected to the spout housing for discharging uids therefrom in any of its angularly horizontally adjusted positions, valve means operatively associated with said mixing 'chamber for controlling the aforesaid passageways for fluid discharge to the mixing chamber, a

A spherical socket housing operatively associated with said main body portion, said valve means operatively mounted within said spherical socket housing and including a valveoperating member, .disc valve means for closing each of said first-mentioned inlet passageways, universal linkage means for each of said disc valve means pivotally connected at one end to said disc valve means and pivotally connected at the other end to said valve-operating member, means for universally mounting said valve-operating member for operating said dise valve means from full open position to full closed position and intermediate positions thereof, `operator-operated means operatively connected to said valve operating member for actuating said valve-operating member within a predetermined triangular opening from full closed to full open and intermediate positions thereof for controlling the discharge from each inlet passage and for Vblending the uid mixture discharged from the inlet passageways, said valve-operating member complementally formed to the spherical surface of the spherical chamber formed by the spherical socket housing, spring-biased means operatively engaging the valve-operating member and the inner sphericall surface of the spherical socket housing, said spherical socket housing formed with a planar surface complementally formed to the upper horizontal planar surface of the main body portion, said spherical socket housing providing a closure for the aforesaid mixing chamber, and said operator-operated means including an angular spindle extending through i said triangular opening and to the rear and upwardly with respect to said spherical socket housing whereby the disc valve means may be adjusted from their full open to lfull closed and intermediate positions thereof within the tmfing chamber. H i

13. A mixing faucet ycomprising a main body-portion formed with a mixing chamber operatively connected `to inlet passageways, lateraly extending integrally formed portions integrally formed with the main body portion, horizontally positioned passageways provided in said lat'-v erally extending integrally formed portions and operatively connected to said inlet passageways, said horizontal passageways including one or more passageways adapted for connecting the mixing faucet` to laterally spaced inlet pipes, the others of these passageways adapted to be closed, a spout housing integrally formed with the main body portion including a passageway operatively connected to the mixing chamber, valve means operatively associated withfsaid mixing chamber for controlling the aforesaid passageways for fluid discharge to the mixing chamber, a spherical socket housing operativelyjassociated withsaid main body portion, said valve means 0peratively mounted, within said spherical socket housing` and including a valve-operating member, disc valve means for closing each of said first-mentioned inlet passageways, universal linkage means for each of said disc` valve means pivotally connected at one-end to said disc valve means and pivotally connected at the'other end to said valveoperating member, means for universally mounting said valve-operating 'member for operating said disc valve means from full open position to full closed position and intermediate positions thereof, operator-operated means operatively connected to said valve operating member for i actuating said valve-operating memberwithin a predetermined triangular opening from full closed to full open and intermediate positions thereof for controlling the dis'- charge from each inlet pamage and for blending the iluid mixture discharged from the inlet passageways, said valveoperating member complementallyformed to the spherical surface of the spherical chamberformed by the `spherical socket housing, vspring-biased means operatively engaging the valve-operating member and the inner spherical surface of the spherical socket housing, said spherical socket housing formed with a planar surface complementally formed to the upper horizontal, planar surface of the main body portion, said spherical socket housing providing a closure for the aforesaid mixing chamber, said operator-operated means including an angular spindle extending through said triangular opening and to the rear t and upwardly withtrespect to said spherical socket housing whereby the disc valve meansmay be adjusted from their full open to full closed and intermediate positions `thereof within the mixing chamber, and adischarge spout socket housing for detachably aixing to the main body portion, disc valve means for closing the passages from the inlet passages to the main body portion, a valveoperating member operatively mounted within the spherii cal socket housing, uni-Versallinkage including pivotally connected linkage rods for operatively connecting the discV valve means to the valve-operating means, springbiased means forbiasing the valve-operating member within the sphericalsock'et housing and for :biasing the disc valve means in a closedposition and retaining the Y disc valvemeans in any ofvtheir adjusted` positions, said spherical socket housing comprisinga semi-spherical portion, and a detachable semi-spherical housing portion, said spherical housing portions complementally formed to complete the spherical socket housing, means for detacllably atxing the detachable semi-spherical housing to the integrally formed semi-spherical portion, said integrally formed semi-spherical portion comprising an arcuate slot formed in the periphery thereof, pin means aiixed to the valve-operating member and complementally formed to extend within the arcuate slot, a triangular opening formed in the `detachable semi-spherical housing portion, and operator-operated means afixed to the valve-operating member and extending through the triangular opening, whereby upon actuation of the-operator-operated means, the valve-operating member may be angularly adjusted about au axis of the valve-operating member within the arcuate range of the arcuate slot, and angularly adjusted about the axis of the pin extending at right angles to the aforesaid axis and at the center of the spherical socket housing so that in any of the adjusted positions of the operator-operated means within the triangular area, the valve-operating means may be swivelled about the aforesaid pin in any yangular position thereof within the arcuate slot. Y

15.v A mixing faucet comprising a main body portion, a mixing chamber formed therein, inlet passages for connecting iiuid piping to the mixing chamber a spherical socket housing for detachably atlixing to the main body portion, disc valve means for closing the passages from the inlet passages to the main body portion, a valveoperating member operatively mounted within the spherical socket housing, universal linkage means including pivotally connected linkage rodsfor operatively connecting the disc valve means to the valve-operating means, spring-biased means for biasing the valve-operating member within the spherical socket housing and for biasing the disc valve means in a closed position and retaining the disc valve means in any of their adjusted positions, said spherical socket housing comprising a semi-spherical portion, and a detachable semi-spherical housing portion, said spherical housing portions complementally formed to complete the spherical socket housing, means for detachably affixing the ydetachable semi-spherical housing to the integrally formed semi-spherical portion, said integrally formed semi-spherical portion comprising an arcuate slot formed in the periphery thereof, pin

means affixed to the valve-operating member and com-V plementally formed to extend within the arcuate slot, a triangular opening formed in the detachable semispherical housing portion, operator-operated means affixed to the valve-operating member and extending through the triangular opening, whereby upon actuation of the operator-operated means the valve-operating member may be angularly adjusted about an yaxis of the valveoperating member within the arcuate range of the arcuate slot, and angularly adjusted about the axis of the pin extending at right angles to the aforesaid axis and at the center of the spherical socket housing whereby in any of the adjusted positions of the operator-operated means within the triangular area, the valve-operating means may be swivelled about the aforesaid pin in any angular position thereof within the arcuate slot, said spring-biased means comprising a stud affixed to the valve-operating means, a cylindrical shaped member complementally formed and slidably mounted with respect to the stud means, spring means operatively mounted on the cylindrically shaped member and abutting the contiguous face of the valve-operating member at one end and at the other end abutting an integrally formed disc of the cylindrical shaped member, and roller means operatively mounted on the integrally formed disc shaped member for operative engagement with the inner spherical surface of the spherical socket housing.

16. A mixing valve comprising a valve body comprising a main body portion including a mixing chamber, inlet passages operatively connected to the mixing chamber and for operatively connecting to fluid piping, a spherical socket housing, disc valve means operatively controlling the openings of the aforesaid inlet passageways to the mixing chamber, a valve-operating-mem-ber substantially spherical for operatively mounting within a spherical chamber of the. spherical socket housing, universal linkage means including pivotally connected linkage rods for operatively connecting the disc-valve means to the valve-operating member, means for sealing the universal linkage means with respect to the mixing chamber, clearance means provided for the universal linkage means in the spherical socket housing and upon the valve-operating member, means for universally mounting the valve-operating member permitting the valve-operating member to rotate about one axis Within a predetermined substantially vertical angular limitation and about another axis within a predetermined substantially horizontal `angular range within the aforesaid predetermined substantially vertical angular limitation about the first-mentioned axis, spring-biasing means for biasing the disc valve means and for biasing the substantially spherical valve operating member within the spherical chamber of the spherical socket housing, a triangular opening in the peripheral surface of the spherical socket housing, and operator-operated means operatively mounted on the valve-operating member and extending through the triangular opening, whereby the disc valve means are adapted to be adjusted from full closed to full open and intermediate positions thereof for discharging fluids from each of the inlet passages or blended mixtures thereof. v

References Cited in the file of this patent UNITED STATES'PATENTS 1,517,956 Compton g Dec. 2, 1924 2,205,684 Cochran June 25, 1940 2,262,291 Kuhnle Nov. l1, 1941 2,403,519 Gardiner July 9, 1946 2,497,558 Reeves Feb. 14, 1950 2,519,158 Symmons Aug. 15, 1950 2,792,847 'Spencer May 21, 1957 2,813,474 Kurth fNov. 19, 1957 2,850,042 Strazdins Sept. 2, 1958 FOREIGN PATENTS 426,313 Italy Oct. 23, 1947 

